Template:Short description Template:Use British English
A tidal bore,<ref>Sometimes also known as an aegir, eagre, or eygre in the context of specific instances in Britain.</ref> often simply given as bore in context, is a tidal phenomenon in which the leading edge of the incoming tide forms a wave (or waves) of water that travels up a river or narrow bay, reversing the direction of the river or bay's current. It is a strong tide that pushes up the river, against the current.
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Bores occur in relatively few locations worldwide, usually in areas with a large tidal range (typically more than Template:Convert between high and low tide) and where incoming tides are funneled into a shallow, narrowing river or lake via a broad bay.<ref name="Chanson2011">Template:Cite book</ref> The funnel-like shape not only increases the tidal range, but it can also decrease the duration of the flood tide, down to a point where the flood appears as a sudden increase in the water level. A tidal bore takes place during the flood tide and never during the ebb tide.
A tidal bore may take on various forms, ranging from a single breaking wavefront with a Template:Nowrapsomewhat like a hydraulic jump<ref name="Chanson_2012">Template:Cite journal</ref><ref name="Chanson2009b">Template:Cite journal</ref>Template:MdashTemplate:Tspto undular bores, comprising a smooth wavefront followed by a train of secondary waves known as whelps.<ref name="Chanson2009">Template:Cite book</ref> Large bores can be particularly unsafe for shipping but also present opportunities for river surfing.<ref name="Chanson2009"/>
Two key features of a tidal bore are the intense turbulence and turbulent mixing generated during the bore propagation, as well as its rumbling noise. The visual observations of tidal bores highlight the turbulent nature of the surging waters. The tidal bore induces a strong turbulent mixing in the estuarine zone, and the effects may be felt along considerable distances. The velocity observations indicate a rapid deceleration of the flow associated with the passage of the bore as well as large velocity fluctuations.<ref name="KochChanson2008">Template:Cite journal</ref><ref name="KochChanson2009">Template:Cite journal</ref> A tidal bore creates a powerful roar that combines the sounds caused by the turbulence in the bore front and whelps, entrained air bubbles in the bore roller, sediment erosion beneath the bore front and of the banks, scouring of shoals and bars, and impacts on obstacles. The bore rumble is heard far away because its low frequencies can travel over long distances. The low-frequency sound is a characteristic feature of the advancing roller in which the air bubbles entrapped in the large-scale eddies are acoustically active and play the dominant role in the rumble-sound generation.<ref name="Chanson2009c">Template:Cite journal</ref>
EtymologyEdit
The word bore derives through Old English from the Old Norse word bára, meaning "wave" or "swell."
EffectsEdit
Tidal bores can be dangerous. Certain rivers such as the Seine in France, the Petitcodiac River in Canada, and the Colorado River in Mexico to name a few, have had a sinister reputation in association with tidal bores. In China, despite warning signs erected along the banks of the Qiantang River, a number of fatalities occur each year by people who take too much risk with the bore.<ref name="Chanson2011" /> The tidal bores affect the shipping and navigation in the estuarine zone, for example, in Papua New Guinea (in the Fly and Bamu Rivers), Malaysia (the Benak in the Batang Lupar), and India (the Hooghly River bore).
On the other hand, tidal bore-affected estuaries are rich feeding zones and breeding grounds of several forms of wildlife.<ref name="Chanson2011" /> The estuarine zones are the spawning and breeding grounds of several native fish species, while the aeration induced by the tidal bore contributes to the abundant growth of many species of fish and shrimp (for example in the Rokan River, Indonesia). The tidal bores also provide opportunity for recreational inland surfing, such as the Seven Ghosts bore on the Kampar River, Indonesia or the Severn Bore on the River Severn, England.
Scientific studiesEdit
Scientific studies have been carried out at the River Dee<ref name="Simpson_etal2004">Template:Cite journal</ref> in Wales in the United Kingdom, the Garonne<ref name="Chanson_etal2010">Template:Cite book</ref><ref name="Simon_et_al2011">Template:Cite book</ref><ref name="Chanson_etal2012">Template:Cite journal</ref><ref name="Reungoat_etal2014a">Template:Cite journal</ref><ref name="Reungoat_etal2014b">Template:Cite book</ref> and Sélune<ref name="Mouaze_et_al2010">Template:Cite book</ref> in France, the Daly River<ref name="Wolanski_etal2004">Template:Cite journal</ref> in Australia, and the Qiantang River estuary<ref name="qiantang 2019">Template:Cite journal</ref> in China. The force of the tidal bore flow often poses a challenge to scientific measurements, as evidenced by a number of field work incidents in the River Dee,<ref name="Simpson_etal2004" /> Rio Mearim, Daly River,<ref name="Wolanski_etal2004" /> and Sélune River.<ref name="Mouaze_et_al2010" />
Rivers and bays with tidal boresEdit
Rivers and bays that have been known to exhibit bores include those listed below.<ref name="Chanson2011" /><ref name="Chanson">Template:Cite book</ref>
AsiaEdit
- Ganges–Brahmaputra, India and Bangladesh
- Indus River, India and Pakistan
- Sittaung River, Burma
- Qiantang River, China, which has the world's largest bore,<ref name="Chanson2011" /><ref name="qiantang 2019" /> up to Template:Convert high, traveling at up to Template:Convert
- Batang Lupar or Lupar River, near Sri Aman, Malaysia. The tidal bore is locally known as benak.<ref name="Chanson2009" />
- Batang Sadong or Sadong River, Sarawak, Malaysia.
- Bono, Kampar River, at Meranti Bay, Pelalawan, Indonesia. The phenomenon is feared by the locals to sink ships.Template:Citation needed It is reported to break up to Template:Convert inland, but usually up to Template:Convert with Template:Convert height.<ref>{{#invoke:citation/CS1|citation
|CitationClass=web }}</ref>
OceaniaEdit
AustraliaEdit
New ZealandEdit
- Wairoa River, Northland Region<ref>Template:Cite news</ref>
Papua New GuineaEdit
- Fly River<ref>p. 159, Barrie R. Bolton. 2009. The Fly River, Papua New Guinea: Environmental Studies in an Impacted Tropical River System. Elsevier Science. Template:ISBN.</ref>
- Turama River
EuropeEdit
IrelandEdit
- River Shannon, up the Shannon Estuary to Limerick, Ireland: 21 September 2013
United KingdomEdit
- River Dee, Wales and England
- River Mersey. The second highest tidal bore after the Severn bore, up to Template:Convert high. The bore tends to form around the Manchester Ship Canal.
- The Severn bore on the River Severn, Wales and England, up to Template:Convert high
- The Trent Aegir on the River Trent, England, up to Template:Convert high. Also other tributaries of the Humber Estuary.
- River Parrett
- River Welland
- The Arnside Bore on the River Kent
- River Great Ouse
- River Ouse, Yorkshire. Like the Trent bore, this is also known as "the Aegir".
- River Eden
- River Esk
- River Nene. This was also known as the Eagre.
- River Nith
- River Lune, Lancashire
- River Ribble, Lancashire
- River Yealm, Devon
- River Leven, Cumbria
BelgiumEdit
FranceEdit
The phenomenon is generally named un mascaret in French.<ref>Template:In lang definition of mascaret</ref> but some other local names are preferred.<ref name="Chanson" />
- Seine had a significant bore until the 1960s, locally named la barre. Since then, it has been practically eliminated by dredging and river training.<ref name="Chanson" />
- Bay of Mont-Saint-Michel including Couesnon, Sélune, and Sée<ref name="Chanson" />
- Arguenon<ref name="Chanson" />
- Template:Ill<ref name="Chanson" />
- Vire<ref name="Chanson" />
- Sienne<ref name="Chanson" />
- Vilaine, locally named le mascarin
- Dordogne<ref name="Chanson" />
- Garonne<ref name="Chanson" />
North AmericaEdit
United StatesEdit
- The Turnagain Arm of Cook Inlet, Alaska. Up to Template:Convert and Template:Convert.
- Historically, the Colorado River had a tidal bore up to 6 feet, that extended 47 miles up river.
- The Savannah River up to Template:Convert inland.Template:Citation needed
- Small tidal bores, only a few inches in height, have been observed advancing up tidal bayous on the Mississippi Gulf Coast.
- The bay inlet of the Crissy Field Marsh, in San Francisco, California, can exhibit tidal bores near high tide.
CanadaEdit
With the Bay of Fundy having the highest tidal range in the world, most rivers draining into the upper bay between Nova Scotia and New Brunswick have significant tidal bores. They include:
- The Petitcodiac River formerly had the highest bore in North America at over Template:Convert in height, but causeway construction between Moncton and Riverview in the 1960s led to subsequent extensive sedimentation which reduced the bore to little more than a ripple. After considerable political controversy, the causeway gates were opened on April 14, 2010, as part of the Petitcodiac River Restoration Project and the tidal bore began to grow again.<ref>Petitcodiac River changing faster than expected</ref> The restoration of the bore has been sufficient that in July 2013, professional surfers rode a Template:Convert-high wave Template:Convert up the Petitcodiac River from Belliveau Village to Moncton to establish a new North American record for continuous surfing.<ref>{{#invoke:citation/CS1|citation
|CitationClass=web }}</ref>
- The Shubenacadie River in Nova Scotia. When the tidal bore approaches, completely drained riverbeds are filled. It has caused the deaths of several tourists who were in the riverbeds when the bore came in.Template:Citation needed Tour boat operators offer rafting excursions in the summer.
- The bore is fastest and highest on some of the smaller rivers that connect to the bay including the River Hebert and Maccan River on the Cumberland Basin, the St. Croix and Kennetcook rivers in the Minas Basin, and the Salmon River in Truro.<ref>Natural History of Nova Scotia Vol. I, Chap. T "Ocean Currents", p. 109 </ref>
MexicoEdit
Historically, there was a tidal bore on the Gulf of California in Mexico at the mouth of the Colorado River. It formed in the estuary about Montague Island and propagated upstream. It was once very strong, but diversions of the river for irrigation have weakened the flow of the river to the point the tidal bore has nearly disappeared.
South AmericaEdit
BrazilEdit
- Amazon River in Brazil, up to Template:Convert high, running at up to Template:Convert. It is known locally as the pororoca.<ref>Template:In lang "Pororoca: surfing the Amazon" indicates that "The record that we could find for surfing the longest distance on the Pororoca was set by Picuruta Salazar, a Brazilian surfer who, in 2003, managed to ride the wave for 37 minutes and travel Template:Convert."</ref>
- Mearim River in Brazil
- Araguari River in Brazil. Very strong in the past, it is considered lost since 2015, due to buffaloes farming, irrigation, and dam construction along the river, leading to substantial loss of water flow.
VenezuelaEdit
ChileEdit
Lakes with tidal boresEdit
Lakes with an ocean inlet can also exhibit tidal bores.Template:Citation needed
North AmericaEdit
- Nitinat Lake on Vancouver Island has a sometimes dangerous tidal bore at Nitinat Narrows where the lake meets the Pacific Ocean. The lake is popular with windsurfers due to its consistent winds.
See alsoEdit
- 1812 New Madrid earthquake, a historic earthquake in the United States that caused the Mississippi River to flow backwards temporarily
- Tidal race
- Tsunami
- Tonlé Sap, a lake and river system in Cambodia where monsoon flooding can cause the river to flow backwards temporarily albeit not as a tidal bore
ReferencesEdit
External linksEdit
- Information about The Severn bore, UK
- Amateur video of the "Wiggenhall Wave" tidal bore
- link to Proudman Inst. page
- Mascaret, Aegir, Pororoca, Tidal Bore. Quid ? Où? Quand? Comment? Pourquoi ? in Journal La Houille Blanche, No. 3, pp. 103–14
- Turbulent Mixing beneath an Undular Bore Front in Journal of Coastal Research, Vol. 24, No. 4, pp. 999–1007 {{#invoke:doi|main}}
- Tidal bore research (2017) The University of Queensland.